The Importance of the Representation of DMS Oxidation in Global Chemistry‐Climate Simulations

The oxidation of dimethyl sulfide (DMS) is key for the natural sulfate aerosol formation and its climate impact. Multiphase chemistry is an important oxidation pathway but neglected in current chemistry-climate models. Here, the DMS chemistry in the aerosol-chemistry-climate model ECHAM-HAMMOZ is ex...

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Bibliographic Details
Main Authors: Hoffmann, Erik Hans, Heinold, Bernd, Kubin, Anne, Tegen, Ina, Herrmann, Hartmut
Format: Article in Journal/Newspaper
Language:unknown
Published: Hoboken, NJ : Wiley 2021
Subjects:
Aerosols
Atmospheric radiation
Oxidation
Sulfur compounds
Aerosol chemistry
Aerosol radiative forcing
Chemistry-climate models
Climate simulation
Formation pathways
Methane sulfonic acid
Oxidation pathway
Radiative forcings
Climate models
aerosol formation
climate effect
concentration composition
dimethylsulfide
methane
oxidation
radiative forcing
simulated annealing
simulation
Arctic
Arctic Ocean
Southern Ocean
550
Antarctic
Antarc*
Online Access:https://dx.doi.org/10.34657/7098
https://oa.tib.eu/renate/handle/123456789/8057
Description
Summary:The oxidation of dimethyl sulfide (DMS) is key for the natural sulfate aerosol formation and its climate impact. Multiphase chemistry is an important oxidation pathway but neglected in current chemistry-climate models. Here, the DMS chemistry in the aerosol-chemistry-climate model ECHAM-HAMMOZ is extended to include multiphase methane sulfonic acid (MSA) formation in deliquesced aerosol particles, parameterized by reactive uptake. First simulations agree well with observed gas-phase MSA concentrations. The implemented formation pathways are quantified to contribute up to 60% to the sulfate aerosol burden over the Southern Ocean and Arctic/Antarctic regions. While globally the impact on the aerosol radiative forcing almost levels off, a significantly more positive solar radiative forcing of up to +0.1 W m−2 is computed in the Arctic (>60°N). The findings imply the need of both further laboratory and model studies on the atmospheric multiphase oxidation of DMS.

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